TY - GEN
T1 - A new lower cost UL split option for ultra-low latency 5G fronthaul
AU - Touati, Hadjer
AU - Castel-Taleb, Hind
AU - Jouaber, Badii
AU - Akbarzadeh, Sara
N1 - Publisher Copyright:
© 2020 IEEE.
PY - 2020/6/1
Y1 - 2020/6/1
N2 - Next generation cellular networks are targeting higher bit rates, lower delays and enhanced inter-cell coordination. For that to happen, higher capacity and lower latency fronthaul solutions are required, among others. The use of Ethernet packet-switched networks for the fronthaul links with a Cloud-based Radio Access Network (C-RAN) architecture are nowadays considered. These will allow leveraging statistical multiplexing gains, infrastructure reuse and cost reduction. In the literature, different fronthaul split options are proposed. However, in order to satisfy latency requirements, most of these studies advocate the use of lower fronthaul split options like the eCPRI (evolved Common Public Radio Interface) IU split, requiring huge fronthaul link capacity. In this paper, we propose and evaluate an alternative uplink physical split, denoted IIU. The objective is to reduce capacity requirements on the fronthaul while meeting latency constraints. The proposed split is analyzed for both fast and slow fading channel situations. Two variants are proposed for the IIU split: a subframe based and slot-based multiplexing. Performance results show that the proposed IIU split satisfies the stringent latency requirements of next generation mobile networks while reducing the deployment cost of links and Ethernet switches of the fronthaul.
AB - Next generation cellular networks are targeting higher bit rates, lower delays and enhanced inter-cell coordination. For that to happen, higher capacity and lower latency fronthaul solutions are required, among others. The use of Ethernet packet-switched networks for the fronthaul links with a Cloud-based Radio Access Network (C-RAN) architecture are nowadays considered. These will allow leveraging statistical multiplexing gains, infrastructure reuse and cost reduction. In the literature, different fronthaul split options are proposed. However, in order to satisfy latency requirements, most of these studies advocate the use of lower fronthaul split options like the eCPRI (evolved Common Public Radio Interface) IU split, requiring huge fronthaul link capacity. In this paper, we propose and evaluate an alternative uplink physical split, denoted IIU. The objective is to reduce capacity requirements on the fronthaul while meeting latency constraints. The proposed split is analyzed for both fast and slow fading channel situations. Two variants are proposed for the IIU split: a subframe based and slot-based multiplexing. Performance results show that the proposed IIU split satisfies the stringent latency requirements of next generation mobile networks while reducing the deployment cost of links and Ethernet switches of the fronthaul.
KW - 5G
KW - C-RAN
KW - Ethernet
KW - Fronthaul
KW - Queuing Model
KW - Split
KW - eCPRI
UR - https://www.scopus.com/pages/publications/85089691866
U2 - 10.1109/IWCMC48107.2020.9148420
DO - 10.1109/IWCMC48107.2020.9148420
M3 - Conference contribution
AN - SCOPUS:85089691866
T3 - 2020 International Wireless Communications and Mobile Computing, IWCMC 2020
SP - 1872
EP - 1878
BT - 2020 International Wireless Communications and Mobile Computing, IWCMC 2020
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 16th IEEE International Wireless Communications and Mobile Computing Conference, IWCMC 2020
Y2 - 15 June 2020 through 19 June 2020
ER -